void OutputTradingStrategy (SItemTypeInfo &ItemInfo)
{
int i;
// Loop over all sellers and get the best price.
CStationType *pBestSeller = NULL;
int iBestSellerPrice;
for (i = 0; i < ItemInfo.SoldAt.GetCount(); i++)
{
SStationTradeInfo &Info = ItemInfo.SoldAt[i];
if (pBestSeller == NULL || Info.iMinPrice < iBestSellerPrice)
{
pBestSeller = Info.pStation;
iBestSellerPrice = Info.iMinPrice;
}
}
// Now get the best buyer's price
CStationType *pBestBuyer = NULL;
int iBestBuyerPrice;
for (i = 0; i < ItemInfo.BoughtBy.GetCount(); i++)
{
SStationTradeInfo &Info = ItemInfo.BoughtBy[i];
if (pBestBuyer == NULL || Info.iMaxPrice > iBestBuyerPrice)
{
pBestBuyer = Info.pStation;
iBestBuyerPrice = Info.iMaxPrice;
}
}
// Output
if (pBestSeller == NULL && pBestBuyer == NULL)
;
else if (pBestSeller == NULL)
printf("%s\t\t\t%s\t%d\t0.0%%\n",
ItemInfo.pItem->GetNounPhrase(nounActual).GetASCIIZPointer(),
pBestBuyer->GetNounPhrase().GetASCIIZPointer(),
iBestBuyerPrice);
else if (pBestBuyer == NULL)
printf("%s\t%s\t%d\t\t\t0.0%%\n",
ItemInfo.pItem->GetNounPhrase(nounActual).GetASCIIZPointer(),
pBestSeller->GetNounPhrase().GetASCIIZPointer(),
iBestSellerPrice);
else
printf("%s\t%s\t%d\t%s\t%d\t%2.2f%%\n",
ItemInfo.pItem->GetNounPhrase(nounActual).GetASCIIZPointer(),
pBestSeller->GetNounPhrase().GetASCIIZPointer(),
iBestSellerPrice,
pBestBuyer->GetNounPhrase().GetASCIIZPointer(),
iBestBuyerPrice,
100.0 * (double)(iBestBuyerPrice - iBestSellerPrice) / (double)iBestSellerPrice);
}
void RunEncounterSim (CUniverse &Universe, CXMLElement *pCmdLine)
{
int iRuns = pCmdLine->GetAttributeIntegerBounded(COUNT_ATTRIB, 1, -1, DEFAULT_RUN_COUNT);
int iTimeOut = DEFAULT_TIME_OUT;
// Get the station criteria
CString sCriteria = strPatternSubst(CONSTLIT("%s t"), pCmdLine->GetAttribute(DEFENDERS_ATTRIB));
CDesignTypeCriteria DefenderCriteria;
if (CDesignTypeCriteria::ParseCriteria(sCriteria, &DefenderCriteria) != NOERROR)
{
printf("ERROR: Unable to parse defenders criteria.\n");
return;
}
bool bAll = pCmdLine->GetAttributeBool(CONSTLIT("all"));
// Get the criteria from the command line. Always append 's' because we
// want ship classes.
sCriteria = strPatternSubst(CONSTLIT("%s s"), pCmdLine->GetAttribute(ATTACKERS_ATTRIB));
CDesignTypeCriteria AttackerCriteria;
if (CDesignTypeCriteria::ParseCriteria(sCriteria, &AttackerCriteria) != NOERROR)
{
printf("ERROR: Unable to parse attackers criteria.\n");
return;
}
// Create a viewer, if desired
CSimViewer Viewer;
if (pCmdLine->GetAttributeBool(VIEWER_ATTRIB))
Viewer.Create();
// Print headers
printf("Encounter\tLevel");
int iAttacker;
for (iAttacker = 0; iAttacker < Universe.GetShipClassCount(); iAttacker++)
{
CShipClass *pAttackerClass = Universe.GetShipClass(iAttacker);
if (!pAttackerClass->MatchesCriteria(AttackerCriteria))
continue;
printf("\t%s", pAttackerClass->GetName().GetASCIIZPointer());
}
printf("\n");
// Loop over all defenders
int iDefender;
for (iDefender = 0; iDefender < Universe.GetStationTypeCount(); iDefender++)
{
CStationType *pDefenderType = Universe.GetStationType(iDefender);
if (!bAll && pDefenderType->GetLevel() == 0)
continue;
if (!pDefenderType->MatchesCriteria(DefenderCriteria))
continue;
// Compute an enemy of the station
CSovereign *pAttackerSovereign = GetAttackerSovereign(Universe, pDefenderType);
if (pAttackerSovereign == NULL)
{
printf("ERROR: Unable to find enemy sovereign of encounter: %s [%x].\n", pDefenderType->GetNounPhrase().GetASCIIZPointer(), pDefenderType->GetUNID());
return;
}
printf("%s [%x]\t%d", pDefenderType->GetNounPhrase().GetASCIIZPointer(), pDefenderType->GetUNID(), pDefenderType->GetLevel());
// Loop over all attackers
for (iAttacker = 0; iAttacker < Universe.GetShipClassCount(); iAttacker++)
{
CShipClass *pAttackerClass = Universe.GetShipClass(iAttacker);
if (!pAttackerClass->MatchesCriteria(AttackerCriteria))
continue;
// Do several runs so we can get some statistical data
int iAttackerSurvived = 0;
int iRun;
for (iRun = 0; iRun < iRuns; iRun++)
{
EResults iResult = RunEncounter(Universe, Viewer, pDefenderType, pAttackerClass, pAttackerSovereign);
if (iResult == resultError)
return;
// Did the attacker survive?
if (iResult != resultAttackerDestroyed)
iAttackerSurvived++;
}
// Output results for this attacker
int iSurvivability = 100 * iAttackerSurvived / iRuns;
printf("\t%d%%", iSurvivability);
}
printf("\n");
}
Viewer.Destroy();
}
void CPlayerGameStats::GenerateGameStats (CGameStats &Stats, CSpaceObject *pPlayerShip, bool bGameOver) const
// GenerateGameStats
//
// Generates a stats for everything we track
{
int j;
CShip *pShip = (pPlayerShip ? pPlayerShip->AsShip() : NULL);
if (pShip == NULL)
return;
CPlayerShipController *pPlayer = (CPlayerShipController *)pShip->GetController();
if (pPlayer == NULL)
return;
CSovereign *pPlayerSovereign = g_pUniverse->FindSovereign(g_PlayerSovereignUNID);
if (pPlayerSovereign == NULL)
return;
// Base stats
Stats.Insert(CONSTLIT("Genome"), strCapitalize(GetGenomeName(pPlayer->GetPlayerGenome())));
Stats.Insert(CONSTLIT("Score"), strFormatInteger(CalcEndGameScore(), -1, FORMAT_THOUSAND_SEPARATOR | FORMAT_UNSIGNED));
Stats.Insert(CONSTLIT("Ship class"), pShip->GetNounPhrase(0));
CTimeSpan Time = GetPlayTime();
if (!Time.IsBlank())
Stats.Insert(CONSTLIT("Time played"), Time.Format(NULL_STR));
#ifdef REAL_TIME
Time = GetGameTime();
if (!Time.IsBlank())
Stats.Insert(CONSTLIT("Time elapsed in game"), Time.Format(NULL_STR));
#endif
// Some combat stats
CString sDestroyed = GetStat(ENEMY_SHIPS_DESTROYED_STAT);
if (!sDestroyed.IsBlank())
Stats.Insert(CONSTLIT("Enemy ships destroyed"), sDestroyed, CONSTLIT("combat"));
sDestroyed = GetStat(FRIENDLY_SHIPS_DESTROYED_STAT);
if (!sDestroyed.IsBlank())
Stats.Insert(CONSTLIT("Friendly ships destroyed"), sDestroyed, CONSTLIT("combat"));
sDestroyed = GetStat(ENEMY_STATIONS_DESTROYED_STAT);
if (!sDestroyed.IsBlank())
Stats.Insert(CONSTLIT("Enemy stations destroyed"), sDestroyed, CONSTLIT("combat"));
sDestroyed = GetStat(FRIENDLY_STATIONS_DESTROYED_STAT);
if (!sDestroyed.IsBlank())
Stats.Insert(CONSTLIT("Friendly stations destroyed"), sDestroyed, CONSTLIT("combat"));
// Add stat for every station destroyed
CStatCounterArray CounterArray;
CMapIterator i;
m_StationStats.Reset(i);
while (m_StationStats.HasMore(i))
{
SStationTypeStats *pStats;
DWORD dwUNID = m_StationStats.GetNext(i, &pStats);
CStationType *pType = g_pUniverse->FindStationType(dwUNID);
if (pType == NULL)
continue;
CString sName = pType->GetNounPhrase(0);
CString sSort = strPatternSubst(CONSTLIT("%03d%s"), 100 - pType->GetLevel(), sName);
if (pType->GetSovereign()->IsEnemy(pPlayerSovereign))
CounterArray.Insert(sName, pStats->iDestroyed, CONSTLIT("Enemy stations destroyed"), sSort);
else
CounterArray.Insert(sName, pStats->iDestroyed, CONSTLIT("Friendly stations destroyed"), sSort);
}
CounterArray.GenerateGameStats(Stats);
// Add stat for every ship class destroyed
CounterArray.DeleteAll();
m_ShipStats.Reset(i);
while (m_ShipStats.HasMore(i))
{
SShipClassStats *pStats;
DWORD dwUNID = m_ShipStats.GetNext(i, &pStats);
CShipClass *pClass = g_pUniverse->FindShipClass(dwUNID);
if (pClass == NULL)
continue;
CString sName = pClass->GetNounPhrase(0);
CString sSort = strPatternSubst(CONSTLIT("%09d%s"), 100000000 - pClass->GetScore(), sName);
if (pStats->iEnemyDestroyed > 0)
CounterArray.Insert(sName, pStats->iEnemyDestroyed, CONSTLIT("Enemy ships destroyed"), sSort);
if (pStats->iFriendDestroyed > 0)
CounterArray.Insert(sName, pStats->iFriendDestroyed, CONSTLIT("Friendly ships destroyed"), sSort);
}
CounterArray.GenerateGameStats(Stats);
// Add stat for every weapon fired
m_ItemStats.Reset(i);
while (m_ItemStats.HasMore(i))
{
SItemTypeStats *pStats;
DWORD dwUNID = m_ItemStats.GetNext(i, &pStats);
CItemType *pItemType = g_pUniverse->FindItemType(dwUNID);
if (pItemType == NULL)
continue;
CString sName = pItemType->GetNounPhrase(nounShort);
CString sSort = strPatternSubst(CONSTLIT("%03d%s"), 100 - pItemType->GetLevel(), sName);
// Installed items
if (pStats->dwFirstInstalled != INVALID_TIME)
Stats.Insert(sName, NULL_STR, CONSTLIT("Items installed"), sSort);
if (pStats->iCountFired > 0)
Stats.Insert(sName,
strFormatInteger(pStats->iCountFired, -1, FORMAT_THOUSAND_SEPARATOR | FORMAT_UNSIGNED),
CONSTLIT("Weapons fired"),
sSort);
}
// Stats for player equipment (but only if the game is done)
if (bGameOver)
{
TSortMap<CString, CItem> InstalledItems;
// First we generate a sorted list of installed items
// (We do this in case there are multiple of the same device/armor so that
// we can coalesce them together into a single line).
CItemListManipulator ItemList(pShip->GetItemList());
ItemList.ResetCursor();
while (ItemList.MoveCursorForward())
{
const CItem &Item(ItemList.GetItemAtCursor());
if (Item.IsInstalled())
{
CString sEnhancement = Item.GetEnhancedDesc(pShip);
CString sItemName = Item.GetNounPhrase(nounActual | nounCountOnly | nounShort);
CString sLine = (sEnhancement.IsBlank() ? sItemName : strPatternSubst(CONSTLIT("%s [%s]"), sItemName, sEnhancement));
bool bInserted;
CItem *pEntry = InstalledItems.SetAt(sLine, &bInserted);
if (bInserted)
{
*pEntry = Item;
pEntry->SetCount(1);
}
else
pEntry->SetCount(pEntry->GetCount() + 1);
}
}
// Now add all the installed items to the stats
for (j = 0; j < InstalledItems.GetCount(); j++)
{
// Redo the line now that we know the proper count
CString sEnhancement = InstalledItems[j].GetEnhancedDesc(pShip);
CString sItemName = InstalledItems[j].GetNounPhrase(nounActual | nounCountOnly);
CString sLine = (sEnhancement.IsBlank() ? sItemName : strPatternSubst(CONSTLIT("%s [%s]"), sItemName, sEnhancement));
// Compute the sort order
int iOrder;
switch (InstalledItems[j].GetType()->GetCategory())
{
case itemcatWeapon:
iOrder = 0;
break;
case itemcatLauncher:
iOrder = 1;
break;
case itemcatShields:
iOrder = 2;
break;
case itemcatArmor:
iOrder = 3;
break;
case itemcatReactor:
iOrder = 4;
break;
case itemcatDrive:
iOrder = 5;
break;
default:
iOrder = 6;
break;
}
CString sSort = strPatternSubst(CONSTLIT("%d%03d%s"), iOrder, 100 - InstalledItems[j].GetType()->GetLevel(), sLine);
Stats.Insert(sLine, NULL_STR, CONSTLIT("Final equipment"), sSort);
}
// Add the remaining items
ItemList.ResetCursor();
while (ItemList.MoveCursorForward())
{
const CItem &Item(ItemList.GetItemAtCursor());
if (!Item.IsInstalled())
{
CString sEnhancement = Item.GetEnhancedDesc(pShip);
CString sItemName = Item.GetNounPhrase(nounActual | nounCountOnly);
CString sLine = (sEnhancement.IsBlank() ? sItemName : strPatternSubst(CONSTLIT("%s [%s]"), sItemName, sEnhancement));
CString sSort = strPatternSubst(CONSTLIT("%03d%s"), 100 - Item.GetType()->GetLevel(), sLine);
Stats.Insert(sLine, NULL_STR, CONSTLIT("Final items"), sSort);
}
}
}
}
void GenerateImageChart (CUniverse &Universe, CXMLElement *pCmdLine)
{
int i;
enum OrderTypes
{
orderSmallest = 1,
orderLargest = 2,
orderName = 3,
orderLevel = 4,
orderSovereign = 5,
orderManufacturer = 6,
};
// Item criteria
bool bHasItemCriteria;
CString sCriteria;
CItemCriteria ItemCriteria;
if (bHasItemCriteria = pCmdLine->FindAttribute(CONSTLIT("itemCriteria"), &sCriteria))
CItem::ParseCriteria(sCriteria, &ItemCriteria);
else
CItem::InitCriteriaAll(&ItemCriteria);
// Get the criteria from the command line.
CDesignTypeCriteria Criteria;
if (pCmdLine->FindAttribute(CONSTLIT("criteria"), &sCriteria))
{
if (CDesignTypeCriteria::ParseCriteria(sCriteria, &Criteria) != NOERROR)
{
printf("ERROR: Unable to parse criteria.\n");
return;
}
}
else if (bHasItemCriteria)
{
if (CDesignTypeCriteria::ParseCriteria(CONSTLIT("i"), &Criteria) != NOERROR)
{
printf("ERROR: Unable to parse criteria.\n");
return;
}
}
else
{
printf("ERROR: Expected criteria.\n");
return;
}
bool bAll = pCmdLine->GetAttributeBool(CONSTLIT("all"));
// Options
bool bTextBoxesOnly = pCmdLine->GetAttributeBool(CONSTLIT("textBoxesOnly"));
bool bFieldUNID = pCmdLine->GetAttributeBool(CONSTLIT("unid"));
// Figure out what order we want
CString sOrder = pCmdLine->GetAttribute(CONSTLIT("sort"));
int iOrder;
if (strEquals(sOrder, CONSTLIT("smallest")))
iOrder = orderSmallest;
else if (strEquals(sOrder, CONSTLIT("largest")))
iOrder = orderLargest;
else if (strEquals(sOrder, CONSTLIT("level")))
iOrder = orderLevel;
else if (strEquals(sOrder, CONSTLIT("sovereign")))
iOrder = orderSovereign;
else if (strEquals(sOrder, CONSTLIT("manufacturer")))
iOrder = orderManufacturer;
else
iOrder = orderName;
bool b3DGrid = pCmdLine->GetAttributeBool(CONSTLIT("3DGrid"));
bool bDockingPorts = pCmdLine->GetAttributeBool(CONSTLIT("portPos"));
bool bDevicePos = pCmdLine->GetAttributeBool(CONSTLIT("devicePos"));
// Image size
int cxDesiredWidth;
if (pCmdLine->FindAttributeInteger(CONSTLIT("width"), &cxDesiredWidth))
cxDesiredWidth = Max(512, cxDesiredWidth);
else
cxDesiredWidth = 1280;
// Spacing
int cxSpacing = pCmdLine->GetAttributeInteger(CONSTLIT("xSpacing"));
int cxExtraMargin = pCmdLine->GetAttributeInteger(CONSTLIT("xMargin"));
int cxImageMargin = 2 * pCmdLine->GetAttributeInteger(CONSTLIT("xImageMargin"));
// Font for text
CString sTypeface;
int iSize;
bool bBold;
bool bItalic;
if (!CG16bitFont::ParseFontDesc(pCmdLine->GetAttribute(CONSTLIT("font")),
&sTypeface,
&iSize,
&bBold,
&bItalic))
{
sTypeface = CONSTLIT("Arial");
iSize = 10;
bBold = false;
bItalic = false;
}
CG16bitFont NameFont;
NameFont.Create(sTypeface, -PointsToPixels(iSize), bBold, bItalic);
CG32bitPixel rgbNameColor = CG32bitPixel(255, 255, 255);
// Rotation
int iRotation = pCmdLine->GetAttributeInteger(CONSTLIT("rotation"));
// Output file
CString sFilespec = pCmdLine->GetAttribute(CONSTLIT("output"));
if (!sFilespec.IsBlank())
sFilespec = pathAddExtensionIfNecessary(sFilespec, CONSTLIT(".bmp"));
// Generate a sorted table of types
TSortMap<CString, SEntryDesc> Table;
for (i = 0; i < Universe.GetDesignTypeCount(); i++)
{
CDesignType *pType = Universe.GetDesignType(i);
SEntryDesc NewEntry;
// Make sure we match the criteria
if (!pType->MatchesCriteria(Criteria))
continue;
// Figure stuff stuff out based on the specific design type
switch (pType->GetType())
{
case designItemType:
{
CItemType *pItemType = CItemType::AsType(pType);
CItem Item(pItemType, 1);
// Skip if not in item criteria
if (!Item.MatchesCriteria(ItemCriteria))
continue;
// Skip virtual classes
if (pItemType->IsVirtual())
continue;
// Initialize the entry
NewEntry.pType = pType;
NewEntry.sName = pItemType->GetNounPhrase(0);
NewEntry.pImage = &pItemType->GetImage();
NewEntry.iSize = RectWidth(NewEntry.pImage->GetImageRect());
break;
}
case designShipClass:
{
CShipClass *pClass = CShipClass::AsType(pType);
// Skip non-generic classess
if (!bAll && !pClass->HasLiteralAttribute(CONSTLIT("genericClass")))
continue;
// Initialize the entry
NewEntry.pType = pType;
NewEntry.sName = pClass->GetNounPhrase(0);
NewEntry.iSize = RectWidth(pClass->GetImage().GetImageRect());
NewEntry.pImage = &pClass->GetImage();
NewEntry.iRotation = pClass->Angle2Direction(iRotation);
NewEntry.sSovereignName = (pClass->GetDefaultSovereign() ? pClass->GetDefaultSovereign()->GetTypeNounPhrase() : NULL_STR);
break;
}
case designStationType:
{
CStationType *pStationType = CStationType::AsType(pType);
// Skip generic classes
if (!bAll && !pStationType->HasLiteralAttribute(CONSTLIT("generic")))
continue;
NewEntry.pType = pType;
NewEntry.sName = pStationType->GetNounPhrase(0);
NewEntry.iSize = pStationType->GetSize();
NewEntry.sSovereignName = (pStationType->GetSovereign() ? pStationType->GetSovereign()->GetTypeNounPhrase() : NULL_STR);
InitStationTypeImage(NewEntry, pStationType);
break;
}
default:
// Don't know how to handle this type
continue;
break;
}
// Adjust name
if (bFieldUNID)
NewEntry.sName = strPatternSubst(CONSTLIT("%s (%x)"), NewEntry.sName, NewEntry.pType->GetUNID());
// Compute the sort key
char szBuffer[1024];
switch (iOrder)
{
case orderLargest:
wsprintf(szBuffer, "%09d%s%x",
1000000 - NewEntry.iSize,
NewEntry.sName.GetASCIIZPointer(),
pType->GetUNID());
break;
case orderLevel:
wsprintf(szBuffer, "%09d%s%x",
pType->GetLevel(),
NewEntry.sName.GetASCIIZPointer(),
pType->GetUNID());
break;
case orderSmallest:
wsprintf(szBuffer, "%09d%s%x",
NewEntry.iSize,
NewEntry.sName.GetASCIIZPointer(),
pType->GetUNID());
break;
case orderSovereign:
wsprintf(szBuffer, "%s|%s|%x", NewEntry.sSovereignName.GetASCIIZPointer(), NewEntry.sName.GetASCIIZPointer(), pType->GetUNID());
NewEntry.sCategorize = NewEntry.sSovereignName;
break;
case orderManufacturer:
{
CString sManufacturer = NewEntry.pType->GetPropertyString(CONSTLIT("manufacturer"));
wsprintf(szBuffer, "%s|%s|%x", sManufacturer.GetASCIIZPointer(), NewEntry.sName.GetASCIIZPointer(), pType->GetUNID());
NewEntry.sCategorize = sManufacturer;
break;
}
default:
wsprintf(szBuffer, "%s%x", NewEntry.sName.GetASCIIZPointer(), pType->GetUNID());
break;
}
// Add to list
Table.Insert(CString(szBuffer), NewEntry);
}
// Allocate an arranger that tracks where to paint each world.
CImageArranger Arranger;
// Settings for the overall arrangement
CImageArranger::SArrangeDesc Desc;
Desc.cxDesiredWidth = Max(512, cxDesiredWidth - (2 * (cxSpacing + cxExtraMargin)));
Desc.cxSpacing = cxSpacing;
Desc.cxExtraMargin = cxExtraMargin;
Desc.pHeader = &NameFont;
// Generate a table of cells for the arranger
TArray<CCompositeImageSelector> Selectors;
Selectors.InsertEmpty(Table.GetCount());
CString sLastCategory;
TArray<CImageArranger::SCellDesc> Cells;
for (i = 0; i < Table.GetCount(); i++)
{
SEntryDesc &Entry = Table[i];
CImageArranger::SCellDesc *pNewCell = Cells.Insert();
pNewCell->cxWidth = (Entry.pImage ? RectWidth(Entry.pImage->GetImageRect()) : 0) + cxImageMargin;
pNewCell->cyHeight = (Entry.pImage ? RectHeight(Entry.pImage->GetImageRect()) : 0) + cxImageMargin;
pNewCell->sText = Entry.sName;
if (!strEquals(sLastCategory, Entry.sCategorize))
{
sLastCategory = Entry.sCategorize;
pNewCell->bStartNewRow = true;
}
}
// Arrange
Arranger.ArrangeByRow(Desc, Cells);
// Create a large image
CG32bitImage Output;
int cxWidth = Max(cxDesiredWidth, Arranger.GetWidth());
int cyHeight = Arranger.GetHeight();
Output.Create(cxWidth, cyHeight);
printf("Creating %dx%d image.\n", cxWidth, cyHeight);
// Paint the images
for (i = 0; i < Table.GetCount(); i++)
{
SEntryDesc &Entry = Table[i];
int x = Arranger.GetX(i);
int y = Arranger.GetY(i);
// Paint
if (x != -1)
{
int xCenter = x + (Arranger.GetWidth(i) / 2);
int yCenter = y + (Arranger.GetHeight(i) / 2);
int xOffset;
int yOffset;
Entry.pImage->GetImageOffset(0, Entry.iRotation, &xOffset, &yOffset);
int cxImage = RectWidth(Entry.pImage->GetImageRect());
int cyImage = RectHeight(Entry.pImage->GetImageRect());
// Paint image
if (!bTextBoxesOnly && Entry.pImage)
{
Entry.pImage->PaintImageUL(Output,
x + (Arranger.GetWidth(i) - cxImage) / 2,
y + (Arranger.GetHeight(i) - cyImage) / 2,
0,
Entry.iRotation);
}
// Paint type specific stuff
switch (Entry.pType->GetType())
{
case designStationType:
{
CStationType *pStationType = CStationType::AsType(Entry.pType);
int xStationCenter = xCenter - xOffset;
int yStationCenter = yCenter - yOffset;
if (bDockingPorts)
pStationType->PaintDockPortPositions(Output, xStationCenter, yStationCenter);
if (bDevicePos)
pStationType->PaintDevicePositions(Output, xStationCenter, yStationCenter);
// If we have docking or device positions, mark the center of the station
if (bDockingPorts || bDevicePos)
{
const int LINE_HALF_LENGTH = 24;
const CG32bitPixel RGB_CENTER_CROSS(255, 255, 0);
Output.DrawLine(xStationCenter - LINE_HALF_LENGTH, yStationCenter, xStationCenter + LINE_HALF_LENGTH, yStationCenter, 1, RGB_CENTER_CROSS);
Output.DrawLine(xStationCenter, yStationCenter - LINE_HALF_LENGTH, xStationCenter, yStationCenter + LINE_HALF_LENGTH, 1, RGB_CENTER_CROSS);
}
break;
}
}
// Paint the 3D grid, if necessary
if (b3DGrid)
{
int iScale = Entry.pImage->GetImageViewportSize();
Metric rMaxRadius = g_KlicksPerPixel * cxImage * 0.5;
const Metric rGridSize = LIGHT_SECOND;
Metric rRadius;
for (rRadius = rGridSize; rRadius <= rMaxRadius; rRadius += rGridSize)
{
int iRadius = (int)((rRadius / g_KlicksPerPixel) + 0.5);
const int iGridAngle = 8;
int iPrevAngle = 0;
int iAngle;
for (iAngle = iGridAngle; iAngle <= 360; iAngle += iGridAngle)
{
int xFrom, yFrom;
C3DConversion::CalcCoord(iScale, iPrevAngle, iRadius, 0, &xFrom, &yFrom);
int xTo, yTo;
C3DConversion::CalcCoord(iScale, iAngle, iRadius, 0, &xTo, &yTo);
Output.DrawLine(xFrom + xCenter, yFrom + yCenter, xTo + xCenter, yTo + yCenter, 1, CG32bitPixel(255, 255, 0));
iPrevAngle = iAngle;
}
}
}
// Paint name
int xText = Arranger.GetTextX(i);
int yText = Arranger.GetTextY(i);
if (xText != -1)
{
if (bTextBoxesOnly)
Output.Fill(xText, yText, Arranger.GetTextWidth(i), Arranger.GetTextHeight(i), 0xffff);
if (!bTextBoxesOnly)
{
Output.FillColumn(xCenter,
y + Arranger.GetHeight(i),
yText - (y + Arranger.GetHeight(i)),
rgbNameColor);
NameFont.DrawText(Output,
xText,
yText,
rgbNameColor,
Entry.sName);
}
}
}
}
// Write to file or clipboard
OutputImage(Output, sFilespec);
}
void GenerateEncounterFrequency (CUniverse &Universe, CXMLElement *pCmdLine)
{
enum ETypes
{
outputFreq,
outputFillLocations,
};
int i, j;
// Options
int iSystemSample = pCmdLine->GetAttributeIntegerBounded(CONSTLIT("count"), 1, -1, 1);
bool bLogo = !pCmdLine->GetAttributeBool(CONSTLIT("noLogo"));
bool bAll = pCmdLine->GetAttributeBool(CONSTLIT("all"));
bool bRawData = pCmdLine->GetAttributeBool(CONSTLIT("rawData"));
ETypes iType;
if (pCmdLine->GetAttributeBool(CONSTLIT("fillLocations")))
iType = outputFillLocations;
else
iType = outputFreq;
// Additional columns
TArray<CString> Cols;
for (i = 0; i < pCmdLine->GetAttributeCount(); i++)
{
CString sAttrib = pCmdLine->GetAttributeName(i);
if (!IsMainCommandParam(sAttrib)
&& !strEquals(sAttrib, CONSTLIT("count"))
&& !strEquals(sAttrib, CONSTLIT("fillLocations"))
&& !strEquals(sAttrib, CONSTLIT("rawData"))
&& !strEquals(sAttrib, CONSTLIT("encounterfreq")))
{
CString sValue = pCmdLine->GetAttribute(i);
if (!strEquals(sValue, CONSTLIT("true")))
Cols.Insert(strPatternSubst(CONSTLIT("%s:%s"), sAttrib, sValue));
else
Cols.Insert(sAttrib);
}
}
// Generate systems for multiple games
CSystemCreateStats Stats;
for (i = 0; i < iSystemSample; i++)
{
if (bLogo)
printf("pass %d...\n", i+1);
// Initialize the game
CString sError;
if (Universe.InitGame(0, &sError) != NOERROR)
{
printf("%s\n", sError.GetASCIIZPointer());
return;
}
for (j = 0; j < Universe.GetTopologyNodeCount(); j++)
{
CTopologyNode *pNode = Universe.GetTopologyNode(j);
if (pNode->IsEndGame())
continue;
// Create the system
CSystem *pSystem;
if (Universe.CreateStarSystem(pNode, &pSystem, NULL, &Stats) != NOERROR)
{
printf("ERROR: Unable to create star system.\n");
return;
}
// Done with old system
Universe.DestroySystem(pSystem);
}
Universe.Reinit();
}
// Output based on type
if (iType == outputFreq)
{
// Generate a table for each encounter
TSortMap<CStationType *, SEncounterFreqEntry> EncounterFreq;
for (i = 0; i < Stats.GetEncounterTableCount(); i++)
{
const CSystemCreateStats::SEncounterTable &Table = Stats.GetEncounterTable(i);
// Skip if only planets and asteroids
if (!Table.bHasStation && !bAll)
continue;
// For each entry in the table, add to the frequency table
for (j = 0; j < Table.Table.GetCount(); j++)
{
CStationType *pEncounterType = Table.Table.GetAt(j);
int iChance = Table.Table.GetChance(j);
SEncounterFreqEntry *pEntry = EncounterFreq.SetAt(pEncounterType);
pEntry->iCount += Table.iCount;
pEntry->iTotalChance += Table.iCount * iChance;
if (pEntry->pMaxTable == NULL || iChance > pEntry->iMaxChance)
{
pEntry->pMaxTable = &Table;
pEntry->iMaxChance = iChance;
}
if (pEntry->pMinTable == NULL || iChance < pEntry->iMinChance)
{
pEntry->pMinTable = &Table;
pEntry->iMinChance = iChance;
}
}
}
// Output encounter frequency distribution
printf("Level\tCategory\tEncounter\tTotal Chances\tAverage Chance\tMin Chance\tMax Chance");
for (i = 0; i < Cols.GetCount(); i++)
printf("\t%s", Cols[i].GetASCIIZPointer());
printf("\n");
for (i = 0; i < EncounterFreq.GetCount(); i++)
{
CStationType *pEncounterType = EncounterFreq.GetKey(i);
int iAveWhole = EncounterFreq[i].iTotalChance / EncounterFreq[i].iCount;
int iAveFrac = 1000 * (EncounterFreq[i].iTotalChance % EncounterFreq[i].iCount) / EncounterFreq[i].iCount;
printf("%d\t%s\t%s\t%d\t%d.%03d\t%d\t%d",
pEncounterType->GetLevel(),
pEncounterType->GetDataField(CONSTLIT("category")).GetASCIIZPointer(),
pEncounterType->GetNounPhrase().GetASCIIZPointer(),
EncounterFreq[i].iCount,
iAveWhole,
iAveFrac,
EncounterFreq[i].iMinChance,
EncounterFreq[i].iMaxChance);
for (j = 0; j < Cols.GetCount(); j++)
{
CString sValue = pEncounterType->GetDataField(Cols[j]);
printf("\t%s", sValue.GetASCIIZPointer());
}
printf("\n");
}
// Output raw data
if (bRawData)
{
// Loop over stats and output tables
for (i = 0; i < Stats.GetEncounterTableCount(); i++)
{
const CSystemCreateStats::SEncounterTable &Table = Stats.GetEncounterTable(i);
// Skip if only planets and asteroids
if (!Table.bHasStation && !bAll)
continue;
// Header
printf("LEVEL %d (%d location%s)\nSystem Type: %08x\nStations: %s\n",
Table.iLevel,
Table.iCount,
(Table.iCount == 1 ? "" : "s"),
Table.pSystemType->GetUNID(),
Table.sStationCriteria.GetASCIIZPointer());
// Location attributes
printf("Location: ");
for (j = 0; j < Table.LabelAttribs.GetCount(); j++)
{
if (j != 0)
printf(", ");
printf(Table.LabelAttribs[j].GetASCIIZPointer());
}
printf("\n");
// Entries
for (j = 0; j < Table.Table.GetCount(); j++)
printf("%s\t%d\n", Table.Table.GetAt(j)->GetNounPhrase().GetASCIIZPointer(), Table.Table.GetChance(j));
printf("\n");
}
}
}
else if (iType == outputFillLocations)
{
printf("Level\tSystem\tEncounter\tChance\n");
for (i = 0; i < Stats.GetFillLocationsTableCount(); i++)
{
const CSystemCreateStats::SFillLocationsTable &Entry = Stats.GetFillLocationsTable(i);
for (j = 0; j < Entry.Table.GetCount(); j++)
{
int iPercent = (int)(1000.0 * Entry.Table.GetChance(j) / (Metric)Entry.Table.GetTotalChance());
printf("%d\t%s\t%s\t%d.%d\n",
Entry.iLevel,
Entry.sSystemName.GetASCIIZPointer(),
Entry.Table[j]->GetNounPhrase().GetASCIIZPointer(),
iPercent / 10,
iPercent % 10);
}
}
}
}